Dist Babble

  Uncertainty So, lets talk a little about the uncertainty principle. If you've heard of quantum mechanics, you know that we can’t know both the position and momentum of a particle at the same time. There’s this built-in limit to how precise our measurements can be. But here's my take on it. I think this isn't just about our measurements being limited. It’s not a flaw in our tools or methods—it’s actually tied to the way time itself works. You see, in my model, we never really know where something is, because by the time we figure it out, it’s already changed. Time is always flowing, always moving, and things are constantly shifting around. We try to predict where something will be based on where it was, but the truth is, that’s just a guess because, in the time it takes to measure, the state of things has already evolved. This is where the uncertainty comes in, and it’s not just some random measurement error—it's a reflection of how time flows and how momentum works w...

  Exploring Dark Matter and Dark Energy Through Temporal Physics In the realm of modern physics, dark matter and dark energy represent two of the most mysterious and pervasive phenomena in the universe. While dark matter is believed to explain gravitational anomalies, and dark energy is thought to drive the accelerated expansion of the universe, both concepts remain elusive within the framework of classical physics. In this post, we’ll explore how my theory of temporal physics provides a fresh perspective on these phenomena and how they can be described mathematically. Temporal Physics: A New Approach to Dark Matter and Dark Energy In my theory of temporal physics, time is at the heart of the dynamics governing the universe. Rather than viewing space-time as a static, pre-defined backdrop as in general relativity, temporal physics proposes that time is not merely a dimension but the essential flow that defines the properties of all interactions. This theory places an emphasis on ...